CN211069540U - Flue gas condenser of giant heat exchange module - Google Patents

Abstract

The utility model relates to a huge heat transfer module flue gas condenser belongs to the condenser field. Comprises a plurality of condensing modules and a supporting steel frame, wherein the condensing modules are arranged on the supporting steel frame in a row, the condensing module comprises a plurality of tube penetrating plates and a plurality of condensing tubes which vertically penetrate the tube penetrating plates, the condensing tubes comprise a plurality of groups of left running water condensing tube groups and a plurality of groups of right running water condensing tube groups, the left running water condensing tube groups and the right running water condensing tube groups are arranged in a staggered way, the utility model discloses a condenser pipe, including condenser pipe, a plurality of left flowing water condensation nest of tubes and right flowing water condensation nest of tubes, the condenser pipe both ends all only stretch out both ends and wear 2mm-3mm of tube sheet, the condenser pipe both ends with wear the tube sheet flush joint, all be provided with a plurality of semicircle pipes on two pipe sheets of wearing at condenser pipe both ends, every semicircle pipe is connected a set of adjacent left flowing water condensation nest of tubes and right flowing water condensation nest of tubes respectively and is made the comdenstion water circulate in a plurality of left flowing water condensation nest of tubes and right flowing water condensation nest of tubes, the utility.

Description

Flue gas condenser of giant heat exchange module

Technical Field

The utility model relates to a huge heat transfer module flue gas condenser belongs to the condenser field.

Background

With the increasing national requirements on the flue gas emission indexes, in order to further reduce the emission indexes and realize near zero emission, a flue gas condenser is required to be installed. Particularly, a flue gas condenser is arranged at the outlet of the wet desulfurization tower or the wet electric dust remover. The flue gas condenser continuously cools saturated wet flue gas, water vapor in the flue gas is condensed into water by the tube bundles due to the fact that the flue gas is condensed on the surfaces of the tube bundles, water films always exist on the surfaces of the tube bundles, water curtains are formed among the tube bundles, the flue gas is washed, liquid drops, soluble salts, gel dust, solid particles and water-soluble SO3(Hg2+) in the flue gas are collected and recovered by the tube bundle surfaces and the water curtains wetted along with the cooling of the flue gas by the tube bundles and the mutual collision of the tube bundles, the deep dehumidification, dust removal and desulfurization of the flue gas are achieved, the environment-friendly requirement of near zero emission of the boiler flue gas is further met, and the condensed water can be further utilized after neutralization treatment.

At present, along with the increase of flue gas discharge equipment, the size of a corresponding flue gas condenser must be increased, but the size of the flue gas condenser is strictly limited due to the influence of thermal expansion during transportation and use, so that the size of a flue gas discharge port is reduced, but along with the improvement of the discharge amount and the discharge speed of flue gas, the treatment efficiency of the reduced flue gas condenser is seriously insufficient.

In view of the problems existing in the prior art, the utility model discloses combine many years' design and experience in use of relevant field, assist too strong professional knowledge, the design has made a huge heat transfer module flue gas condenser, overcomes above-mentioned defect.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the prior art, the utility model provides a pair of huge heat transfer module flue gas condenser can solve the transport and the installation problem of super-large-scale condenser, still can save material simultaneously.

In order to realize the purpose, the utility model discloses a technical scheme as follows: a giant heat exchange module flue gas condenser comprises a plurality of condensation modules and a supporting type steel frame, wherein the condensation modules are arranged on the supporting type steel frame in a row;

the condensation module comprises a plurality of tube penetrating plates and a plurality of condensation tubes vertically penetrating the tube penetrating plates;

a plurality of the condenser pipe includes left flowing water condenser nest of tubes of a plurality of groups and right flowing water condenser nest of tubes of a plurality of groups, and is a plurality of left flowing water condenser nest of tubes and right flowing water condenser nest of tubes crisscross setting each other, the condenser pipe both ends all only stretch out both ends and wear 2mm-3mm of tube sheet, all are provided with a plurality of semicircle pipes on two wearing the tube sheets at condenser pipe both ends, every the semicircle pipe is connected a set of adjacent left flowing water condenser nest of tubes and right flowing water condenser nest of tubes respectively and is made the comdenstion water a plurality of circulate in left flowing water condenser nest of tubes and the right flowing water condenser nest of tubes.

As the preferred technical scheme, protective covers are arranged around the plurality of semicircular pipes.

According to the preferable technical scheme, a condensate water inlet pipe joint is arranged on the semicircular pipe on one side of the condensation module, and a condensate water outlet pipe joint is arranged on the semicircular pipe on the other side of the condensation module.

As a preferred technical scheme, two ends of the condenser tube are welded with the tube penetrating plate in a flat mode.

As a preferred technical scheme, four rows and four columns of the condensation modules are arranged at the front end and the rear end of the support type steel frame.

According to the preferable technical scheme, a set of condensation recovery hopper bin is arranged at the bottom of each row of condensation modules, and a recovery pipe joint is arranged at the bottom of each condensation recovery hopper bin.

The utility model has the advantages that the condensing modules are manufactured and transported to the construction site in advance and then assembled, thereby facilitating transportation and hoisting; the semicircular pipes are used at the two ends of the condensation pipe to replace a large number of elbows, so that the manufacturing cost is saved; each condensation module is reasonably controlled according to actual condensation needs, the control precision is up to 1/32, the utilization rate of equipment is improved, and energy conservation and consumption reduction are realized; the utility model discloses a condensation recovery funnel storehouse is collected flue gas comdenstion water cyclic processing and is utilized, fully saves the cost, and pollution reduction.

Drawings

FIG. 1 is a front view of a flue gas condenser of a giant heat exchange module;

FIG. 2 is a side view of a giant heat exchange module flue gas condenser;

FIG. 3 is a partial top view of a flue gas condenser of a giant heat exchange module.

In the figure, 1, a support type steel frame, 2, a condensation module, 3, a condensate water inlet pipe joint, 4, a condensate water outlet pipe joint, 5, a protective cover, 6, a semicircular pipe, 7, a condensation pipe, 8, a tube penetrating plate, 9, a left flowing water condensation pipe group, 10 and a right flowing water condensation pipe group.

Detailed Description

The present invention is further described below to facilitate understanding by those skilled in the art.

As shown in fig. 1 to 3, a huge heat transfer module flue gas condenser, including a plurality of condensation modules 2 and support type steelframe 1, a plurality of condensation modules 2 becomes row setting on supporting type steelframe 1, and support type steelframe 1 need weld the preparation at the job site, and condensation module 2 need make in advance, because single condensation module 2 size is a lot less than whole condenser, consequently made things convenient for transportation and hoist and mount, only need on-the-spot equipment alright, the utility model discloses the concrete structure of condenser all is provided with four rows of four rows for both ends all around supporting type steelframe 1 condensation modules 2, every condensation module 2 need reasonable control according to actual condensation, and control accuracy is up to 1/32, has improved the rate of utilization of equipment, simultaneously energy-conservation subtracts consumptive.

The condensing module 2 of the utility model comprises a plurality of tube-penetrating plates 8 and a plurality of condensing tubes 7 which vertically penetrate through the tube-penetrating plates 8, the condensing tubes 7 comprise a plurality of groups of left flowing water condensing tube groups 9 and a plurality of groups of right flowing water condensing tube groups 10, the left flowing water condensing tube groups 9 and the right flowing water condensing tube groups 10 are arranged in a mutually staggered way, 7 both ends of condenser pipe all only stretch out both ends and wear tube sheet 8 about 2mm-3mm, 7 both ends of condenser pipe and wear tube sheet 8 butt weld, avoid the boxing to puncture the pipe wall, all be provided with a plurality of semicircle pipes 6 on two tube sheets 8 of wearing at 7 both ends of condenser pipe, every semicircle pipe 6 is connected a set of adjacent left flowing water condensation nest of tubes 9 respectively and is made the comdenstion water circulate in a plurality of left flowing water condensation nest of tubes 9 and right flowing water condensation nest of tubes 10, the utility model discloses 7 both ends of condenser pipe have replaced a large amount of elbows with semicircle pipe 6, have saved the cost of manufacture.

Specifically, the utility model discloses be equipped with comdenstion water inlet pipe joint 3 on the semicircle pipe 6 of 2 one sides of condensation module, be equipped with comdenstion water outlet pipe joint 4 on the semicircle pipe 6 of 2 opposite sides of condensation module.

For the damage of the collision of preventing the transportation to semicircle pipe 6, the utility model discloses all be equipped with protection casing 5 around a plurality of semicircle pipes 6.

The utility model discloses every 2 bottoms of row of condensation module all are provided with one set of condensation and retrieve the funnel storehouse, and condensation is retrieved funnel storehouse bottom and is equipped with the recovery tube and connects, retrieves the funnel storehouse through the condensation and collects flue gas comdenstion water cyclic processing and utilizes, fully saves the cost, pollution reduction.

For those skilled in the art, based on the teachings of the present invention, changes, modifications, substitutions and variations can be made to the embodiments without departing from the principles and spirit of the invention.

Claims (6)

1. The utility model provides a huge heat transfer module flue gas condenser which characterized in that: the condensing system comprises a plurality of condensing modules and a supporting steel frame, wherein the condensing modules are arranged on the supporting steel frame in a row;

the condensation module comprises a plurality of tube penetrating plates and a plurality of condensation tubes vertically penetrating the tube penetrating plates;

a plurality of the condenser pipe includes left flowing water condenser nest of tubes of a plurality of groups and right flowing water condenser nest of tubes of a plurality of groups, and is a plurality of left flowing water condenser nest of tubes and right flowing water condenser nest of tubes crisscross setting each other, the condenser pipe both ends all only stretch out both ends and wear 2mm-3mm of tube sheet, all are provided with a plurality of semicircle pipes on two wearing the tube sheets at condenser pipe both ends, every the semicircle pipe is connected a set of adjacent left flowing water condenser nest of tubes and right flowing water condenser nest of tubes respectively and is made the comdenstion water a plurality of circulate in left flowing water condenser nest of tubes and the right flowing water condenser nest of tubes.

2. The giant heat exchange module flue gas condenser of claim 1, wherein: and protective covers are arranged around the semicircular pipes.

3. The giant heat exchange module flue gas condenser of claim 1, wherein: and a condensed water inlet pipe joint is arranged on the semicircular pipe on one side of the condensation module, and a condensed water outlet pipe joint is arranged on the semicircular pipe on the other side of the condensation module.

4. The giant heat exchange module flue gas condenser of claim 1, wherein: and two ends of the condensing tube are welded with the tube penetrating plate in a flat mode.

5. The giant heat exchange module flue gas condenser of claim 1, wherein: four rows and four rows of the condensation modules are arranged at the front end and the rear end of the support type steel frame.

6. The giant heat exchange module flue gas condenser of claim 5, wherein: and a set of condensation recovery funnel bin is arranged at the bottom of each row of condensation module, and a recovery pipe joint is arranged at the bottom of each condensation recovery funnel bin.

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